![]() In doing so, we provide guidance for defining a research agenda focusing on the investigation of the crucial role of scalability for blockchain systems. One major difference are the performance and scalability factors which will be discussed and analytically investigated in this paper. Our proposed Parameter Space Exploration has two elements: (1) The concept of a parameter space (2) A side-by-side benchmarking system for balanced comparison among different multi-layer blockchains and consensus algorithms.Ä«lockchain systems (more precisely Distributed Ledger Technologies (DLTs)) represent a different digital ecosystem compared with traditional computer systems. We find that the side chain is the determining factor for the performance of a multi-layer system our side chain is chosen among a set of Byzantine Fault Tolerance (BFT) and Crash Fault Tolerance (CFT) based consensus algorithms as they are more energy-efficient and have higher performance than their Proof of Work (PoW) counterparts. Multi-layer blockchains use a permissioned blockchain to solve performance deficits. Our system is primarily targeted at the performance issue but also takes into consideration power consumption. This paper details the implementation of the first-ever multi-layer blockchain parameter tuning system: Parameter Space Exploration. There are few mechanisms that may allow for consistent performance analysis among multiple blockchains. Understanding how different blockchains compare in performance has become more important than ever, yet each blockchian paper uses its own inconsistent standards for performance analysis. Both the number of blockchains and the discovered number of applications of blockchain are ever-increasing.
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